Provided is a reactivatable tile bonding mat installable without cement-based thinset. The reactivatable tile bonding mat may include a top surface and a bottom surface. The top surface and the bottom surface include a polymer hot-melt material. The polymer hot-melt material can be reactivatable by heating. The polymer hot-melt material can be adhesive with regard to a surface of at least one of concrete, wood, stone, tile and vinyl. The polymer hot-melt material creates bonding to the surface upon being heated to a pre-determined temperature. The polymer hot-melt material can be heated by convection heating. The polymer hot-melt material comprises a polyethylene terephthalate (PET) and a filler. The filler can include at least one of calcium carbonate, aragonite, silica, metal flake, and glass. The PET and the filler are mixed in a pre-determined proportion to obtain a polymer hot-melt material having a pre-determined melting temperature.

Exemplary methods for installing tile using a reactivatable tile bonding mat is disclosed. The reactivatable tile bonding mat is placed upon a substantially flat surface. Stone, porcelain or ceramic tile is placed and arranged on the reactivatable tile bonding mat in an aesthetically pleasing fashion, in some cases aided by the use of spacers in the joints between the sides of the tiles. Induction, or some other method of heat, is applied to the upper surfaces of the tiles, to quickly transfer through the tile, causing a polymer hot-melt material embedded in the reactivatable tile bonding mat to melt and adhere to a lower surface of the tiles, forming a strong bond. Upon the tiles fully bonding to the reactivatable tile bonding mat, spacers may be removed and a suitable grout may be applied in the joints between the sides of the tiles.

An adhesive floor/wallboard includes a floor/wallboard main body layer and a buffer layer adhered to the back surface of the floor/wallboard main body layer. The buffer layer is provided with a plurality of holes. The holes extend through the buffer layer to the main body layer. Glue is deposited in the holes. The buffer layer is adhered to the back surface of the floor/wallboard. The glue in the holes makes direct contact with the floor/wallboard main body at the holes. Due to the holes and their depth, the contact area between the glue, the buffer layer and the main body is increased. Accordingly, the adhesive floor/wallboard can be more firmly adhered to a backing surface.

A tile-type decorative flooring material includes a surface-processed layer, a clear layer, a design-print layer, an underlayer, and a micro-embossed plastic foam part having a plastic foam layer and an adhesive film layer with micro-embossing. The flooring material provides a significant improvement in terms of slippage between the product and the floor surface in a construction process not using an adhesive.

A finishing profile for a floor covering, including at least a flange-shaped portion, which extends on opposite sides of an attachment portion situated on the underside, wherein the flange-shaped portion is formed in one piece from synthetics and is provided for being subdivided at the location of the attachment portion. The invention further also relates to a cutting tool for cutting up such finishing profile for a floor covering, wherein this cutting tool includes a body and includes at least one knife, wherein the position of the knife is adjustable.

Dry mortar mixture characterized by a glass mixture of expanded glass beads with a grain size d/D 0/8, mixed in a ratio of between 1:1 and 1:3, for example 1:2 with a dust poor or dust free binding mixture of hydraulic binders and stone granules in the weight ratio of 1:2 to 1:4. The glass has a discontinuous grain distribution. For the glass mixture the fractions 0.5/1.0 and 2.0/4.0 are present while the fractions 0.25/0.5 and 1.0/2.0 are absent. For the glass mixture preferably all grain sizes between 1.0 and 2.0 mm are absent and the grain size distribution is around an average, so that an open structure is obtained.

This invention relates to a method for adhering floor tiles together and the flooring system thereby created. The method utilizes individual adhesive units as fasteners for attachment of each floor tile to the next contiguous floor tile. The adhesive units are a multi-layered composite comprised of at least one adhesive layer and at least one layer of polymer film or textile substrate. When a series of floor tiles are attached to one another in this manner, a floating floorcovering article is achieved.

This invention relates to a method for adhering floor tiles together and the flooring system thereby created. The method utilizes individual adhesive units as fasteners for attachment of each floor tile to the next contiguous floor tile. The adhesive units are a multi-layered composite comprised of at least one adhesive layer and at least one layer of polymer film or textile substrate. When a series of floor tiles are attached to one another in this manner, a floating floorcovering article is achieved.

Dry mortar mixture characterized by a glass mixture of expanded glass beads with a grain size d/D 0/8, mixed in a ratio of between 1:1 and 1:3, with a binding mixture of hydraulic binders and stone granules in the weight ratio of 1:2 to 1:4. The glass has a discontinuous grain distribution. For the glass mixture the fractions 0.5/1.0 and 2.0/4.0 are present while a fraction intermediate other fractions are absent. Preferably the fractions 0.25/0.5 and 1.0/2.0 are absent. For the glass mixture preferably all grain sizes between 1.0 and 2.0 mm are absent. The grain size distribution is around an average, so that an open structure is obtained.

Disclosed are methods and systems involving location-based disambiguation of media channel identification, in a scenario where a fingerprint of media content being rendered by a media presentation device matches multiple reference fingerprints corresponding respectively with multiple different media channels. Upon detecting such a multi-match situation, a server or other entity will use a location of the media presentation device as a basis to disambiguate between the matching reference fingerprints and thus to determine the channel on which the media content being rendered by the media presentation device is arriving.